#include "fsl_device_registers.h"
#include "fsl_common.h"
-/*******************************************************************************
- * Definitions
- ******************************************************************************/
-#define USB_OSA_BM_EVENT_COUNT (4U)
-#define USB_OSA_BM_SEM_COUNT (1U)
-#define USB_OSA_BM_MSGQ_COUNT (1U)
-#define USB_OSA_BM_MSG_COUNT (8U)
-#define USB_OSA_BM_MSG_SIZE (4U)
-
-/* BM Event status structure */
-typedef struct _usb_osa_event_struct
-{
- uint32_t value; /* Event mask */
- uint32_t flag; /* Event flags, includes auto clear flag */
- uint8_t isUsed; /* Is used */
-} usb_osa_event_struct_t;
-
-/* BM semaphore status structure */
-typedef struct _usb_osa_sem_struct
-{
- uint32_t value; /* Semaphore count */
- uint8_t isUsed; /* Is used */
-} usb_osa_sem_struct_t;
-
-/* BM msg status structure */
-typedef struct _usb_osa_msg_struct
-{
- uint32_t msg[USB_OSA_BM_MSG_SIZE]; /* Message entity pointer */
-} usb_osa_msg_struct_t;
-
-/* BM msgq status structure */
-typedef struct _usb_osa_msgq_struct
-{
- usb_osa_msg_struct_t msgs[USB_OSA_BM_MSG_COUNT]; /* Message entity list */
- uint32_t count; /* Max message entity count */
- uint32_t msgSize; /* Size of each message */
- uint32_t msgCount; /* Valid messages */
- uint32_t index; /* The first empty message entity index */
- uint32_t current; /* The vaild message index */
- uint8_t isUsed; /* Is used */
-} usb_osa_msgq_struct_t;
-
-/*******************************************************************************
- * Prototypes
- ******************************************************************************/
-
-/*******************************************************************************
- * Variables
- ******************************************************************************/
-
-USB_GLOBAL USB_RAM_ADDRESS_ALIGNMENT(USB_DATA_ALIGN_SIZE) static usb_osa_sem_struct_t
- s_UsbBmSemStruct[USB_OSA_BM_SEM_COUNT];
-USB_GLOBAL USB_RAM_ADDRESS_ALIGNMENT(USB_DATA_ALIGN_SIZE) static usb_osa_event_struct_t
- s_UsbBmEventStruct[USB_OSA_BM_EVENT_COUNT];
-USB_GLOBAL USB_RAM_ADDRESS_ALIGNMENT(USB_DATA_ALIGN_SIZE) static usb_osa_msgq_struct_t
- s_UsbBmMsgqStruct[USB_OSA_BM_MSGQ_COUNT];
-
-/*******************************************************************************
- * Code
- ******************************************************************************/
-
-void *USB_OsaMemoryAllocate(uint32_t length)
-{
- void *p = (void *)malloc(length);
- uint8_t *temp = (uint8_t *)p;
- if (p)
- {
- for (uint32_t count = 0U; count < length; count++)
- {
- temp[count] = 0U;
- }
- }
- return p;
-}
-
-void USB_OsaMemoryFree(void *p)
-{
- free(p);
-}
-
void USB_OsaEnterCritical(uint32_t *sr)
{
*sr = DisableGlobalIRQ();
{
EnableGlobalIRQ(sr);
}
-
-usb_osa_status_t USB_OsaEventCreate(usb_osa_event_handle *handle, uint32_t flag)
-{
- usb_osa_event_struct_t *event = NULL;
- USB_OSA_SR_ALLOC();
-
- if (!handle)
- {
- return kStatus_USB_OSA_Error;
- }
-
- USB_OSA_ENTER_CRITICAL();
- for (uint32_t i = 0; i < USB_OSA_BM_EVENT_COUNT; i++)
- {
- if (0 == s_UsbBmEventStruct[i].isUsed)
- {
- event = &s_UsbBmEventStruct[i];
- break;
- }
- }
-
- if (NULL == event)
- {
- USB_OSA_EXIT_CRITICAL();
- return kStatus_USB_OSA_Error;
- }
-
- event->value = 0U;
- event->flag = flag;
- event->isUsed = 1;
- *handle = event;
- USB_OSA_EXIT_CRITICAL();
- return kStatus_USB_OSA_Success;
-}
-
-usb_osa_status_t USB_OsaEventDestroy(usb_osa_event_handle handle)
-{
- usb_osa_event_struct_t *event = (usb_osa_event_struct_t *)handle;
- USB_OSA_SR_ALLOC();
-
- if (handle)
- {
- USB_OSA_ENTER_CRITICAL();
- event->isUsed = 0;
- USB_OSA_EXIT_CRITICAL();
- return kStatus_USB_OSA_Success;
- }
- return kStatus_USB_OSA_Error;
-}
-
-usb_osa_status_t USB_OsaEventSet(usb_osa_event_handle handle, uint32_t bitMask)
-{
- usb_osa_event_struct_t *event = (usb_osa_event_struct_t *)handle;
- USB_OSA_SR_ALLOC();
-
- if (handle)
- {
- USB_OSA_ENTER_CRITICAL();
- event->value |= bitMask;
- USB_OSA_EXIT_CRITICAL();
- return kStatus_USB_OSA_Success;
- }
- return kStatus_USB_OSA_Error;
-}
-
-usb_osa_status_t USB_OsaEventWait(
- usb_osa_event_handle handle, uint32_t bitMask, uint32_t flag, uint32_t timeout, uint32_t *bitSet)
-{
- usb_osa_event_struct_t *event = (usb_osa_event_struct_t *)handle;
- uint32_t bits;
- USB_OSA_SR_ALLOC();
-
- if (handle)
- {
- USB_OSA_ENTER_CRITICAL();
- bits = event->value & bitMask;
- if (flag)
- {
- if (bits != bitMask)
- {
- USB_OSA_EXIT_CRITICAL();
- return kStatus_USB_OSA_TimeOut;
- }
- }
- else
- {
- if (!bits)
- {
- USB_OSA_EXIT_CRITICAL();
- return kStatus_USB_OSA_TimeOut;
- }
- }
- if (bitSet)
- {
- *bitSet = bits;
- }
- if (event->flag)
- {
- event->value &= ~bits;
- }
- USB_OSA_EXIT_CRITICAL();
- return kStatus_USB_OSA_Success;
- }
- return kStatus_USB_OSA_Error;
-}
-
-usb_osa_status_t USB_OsaEventCheck(usb_osa_event_handle handle, uint32_t bitMask, uint32_t *bitSet)
-{
- usb_osa_event_struct_t *event = (usb_osa_event_struct_t *)handle;
- uint32_t bits;
- USB_OSA_SR_ALLOC();
-
- if (handle)
- {
- USB_OSA_ENTER_CRITICAL();
- bits = event->value & bitMask;
-
- if (!bits)
- {
- USB_OSA_EXIT_CRITICAL();
- return kStatus_USB_OSA_Error;
- }
-
- if (bitSet)
- {
- *bitSet = bits;
- }
- USB_OSA_EXIT_CRITICAL();
- return kStatus_USB_OSA_Success;
- }
- return kStatus_USB_OSA_Error;
-}
-
-usb_osa_status_t USB_OsaEventClear(usb_osa_event_handle handle, uint32_t bitMask)
-{
- usb_osa_event_struct_t *event = (usb_osa_event_struct_t *)handle;
- uint32_t bits;
- USB_OSA_SR_ALLOC();
-
- if (handle)
- {
- USB_OSA_ENTER_CRITICAL();
- bits = event->value & bitMask;
- event->value &= ~bits;
- USB_OSA_EXIT_CRITICAL();
- return kStatus_USB_OSA_Success;
- }
- return kStatus_USB_OSA_Error;
-}
-
-usb_osa_status_t USB_OsaSemCreate(usb_osa_sem_handle *handle, uint32_t count)
-{
- usb_osa_sem_struct_t *sem = NULL;
- USB_OSA_SR_ALLOC();
-
- if (!handle)
- {
- return kStatus_USB_OSA_Error;
- }
-
- USB_OSA_ENTER_CRITICAL();
- for (uint32_t i = 0; i < USB_OSA_BM_SEM_COUNT; i++)
- {
- if (0 == s_UsbBmSemStruct[i].isUsed)
- {
- sem = &s_UsbBmSemStruct[i];
- break;
- }
- }
- if (NULL == sem)
- {
- USB_OSA_EXIT_CRITICAL();
- return kStatus_USB_OSA_Error;
- }
-
- sem->value = count;
- sem->isUsed = 1;
- *handle = sem;
- USB_OSA_EXIT_CRITICAL();
- return kStatus_USB_OSA_Success;
-}
-
-usb_osa_status_t USB_OsaSemDestroy(usb_osa_sem_handle handle)
-{
- usb_osa_sem_struct_t *sem = (usb_osa_sem_struct_t *)handle;
- USB_OSA_SR_ALLOC();
-
- if (handle)
- {
- USB_OSA_ENTER_CRITICAL();
- sem->isUsed = 0;
- USB_OSA_EXIT_CRITICAL();
- return kStatus_USB_OSA_Success;
- }
- return kStatus_USB_OSA_Error;
-}
-
-usb_osa_status_t USB_OsaSemPost(usb_osa_sem_handle handle)
-{
- usb_osa_sem_struct_t *sem = (usb_osa_sem_struct_t *)handle;
- USB_OSA_SR_ALLOC();
-
- if (!handle)
- {
- return kStatus_USB_OSA_Error;
- }
-
- USB_OSA_ENTER_CRITICAL();
- sem->value++;
- USB_OSA_EXIT_CRITICAL();
- return kStatus_USB_OSA_Success;
-}
-
-usb_osa_status_t USB_OsaSemWait(usb_osa_sem_handle handle, uint32_t timeout)
-{
- usb_osa_sem_struct_t *sem = (usb_osa_sem_struct_t *)handle;
- USB_OSA_SR_ALLOC();
-
- if (!handle)
- {
- return kStatus_USB_OSA_Error;
- }
-
- USB_OSA_ENTER_CRITICAL();
- if (sem->value)
- {
- sem->value--;
- }
- else
- {
- USB_OSA_EXIT_CRITICAL();
- return kStatus_USB_OSA_TimeOut;
- }
- USB_OSA_EXIT_CRITICAL();
- return kStatus_USB_OSA_Success;
-}
-
-usb_osa_status_t USB_OsaMutexCreate(usb_osa_mutex_handle *handle)
-{
- if (!handle)
- {
- return kStatus_USB_OSA_Error;
- }
- *handle = (usb_osa_mutex_handle)0xFFFF0000U;
- return kStatus_USB_OSA_Success;
-}
-
-usb_osa_status_t USB_OsaMutexDestroy(usb_osa_mutex_handle handle)
-{
- return kStatus_USB_OSA_Success;
-}
-usb_osa_status_t USB_OsaMutexLock(usb_osa_mutex_handle handle)
-{
- return kStatus_USB_OSA_Success;
-}
-usb_osa_status_t USB_OsaMutexUnlock(usb_osa_mutex_handle handle)
-{
- return kStatus_USB_OSA_Success;
-}
-
-usb_osa_status_t USB_OsaMsgqCreate(usb_osa_msgq_handle *handle, uint32_t count, uint32_t size)
-{
- usb_osa_msgq_struct_t *msgq = NULL;
- USB_OSA_SR_ALLOC();
-
- if (!handle)
- {
- return kStatus_USB_OSA_Error;
- }
- USB_OSA_ENTER_CRITICAL();
-
- for (uint32_t i = 0; i < USB_OSA_BM_MSGQ_COUNT; i++)
- {
- if (0 == s_UsbBmMsgqStruct[i].isUsed)
- {
- msgq = &s_UsbBmMsgqStruct[i];
- break;
- }
- }
- if ((NULL == msgq) || (count > USB_OSA_BM_MSG_COUNT) || (size > USB_OSA_BM_MSG_SIZE))
- {
- USB_OSA_EXIT_CRITICAL();
- return kStatus_USB_OSA_Error;
- }
- msgq->count = count;
- msgq->msgSize = size;
- msgq->msgCount = 0U;
- msgq->index = 0U;
- msgq->current = 0U;
- msgq->isUsed = 1;
- *handle = msgq;
- USB_OSA_EXIT_CRITICAL();
- return kStatus_USB_OSA_Success;
-}
-
-usb_osa_status_t USB_OsaMsgqDestroy(usb_osa_msgq_handle handle)
-{
- usb_osa_msgq_struct_t *msgq = (usb_osa_msgq_struct_t *)handle;
- USB_OSA_SR_ALLOC();
-
- if (!handle)
- {
- return kStatus_USB_OSA_Error;
- }
- USB_OSA_ENTER_CRITICAL();
- msgq->isUsed = 0;
- USB_OSA_EXIT_CRITICAL();
- return kStatus_USB_OSA_Success;
-}
-
-usb_osa_status_t USB_OsaMsgqSend(usb_osa_msgq_handle handle, void *msg)
-{
- usb_osa_msgq_struct_t *msgq = (usb_osa_msgq_struct_t *)handle;
- usb_osa_msg_struct_t *msgEntity;
- uint32_t *p;
- uint32_t *q;
- uint32_t count;
- USB_OSA_SR_ALLOC();
-
- if (!handle)
- {
- return kStatus_USB_OSA_Error;
- }
- USB_OSA_ENTER_CRITICAL();
- if (msgq->msgCount >= msgq->count)
- {
- USB_OSA_EXIT_CRITICAL();
- return kStatus_USB_OSA_Error;
- }
-
- msgEntity = &msgq->msgs[msgq->index];
- p = (uint32_t *)&msgEntity->msg[0];
- q = (uint32_t *)msg;
-
- for (count = 0U; count < msgq->msgSize; count++)
- {
- p[count] = q[count];
- }
-
- if (0U == msgq->msgCount)
- {
- msgq->current = msgq->index;
- }
-
- msgq->msgCount++;
- msgq->index++;
- msgq->index = msgq->index % msgq->count;
-
- USB_OSA_EXIT_CRITICAL();
-
- return kStatus_USB_OSA_Success;
-}
-
-usb_osa_status_t USB_OsaMsgqRecv(usb_osa_msgq_handle handle, void *msg, uint32_t timeout)
-{
- usb_osa_msgq_struct_t *msgq = (usb_osa_msgq_struct_t *)handle;
- usb_osa_msg_struct_t *msgEntity;
- uint32_t *p;
- uint32_t *q;
- uint32_t count;
- USB_OSA_SR_ALLOC();
-
- if (!handle)
- {
- return kStatus_USB_OSA_Error;
- }
- USB_OSA_ENTER_CRITICAL();
- if (msgq->msgCount < 1U)
- {
- USB_OSA_EXIT_CRITICAL();
- return kStatus_USB_OSA_TimeOut;
- }
-
- msgEntity = &msgq->msgs[msgq->current];
- q = (uint32_t *)&msgEntity->msg[0];
- p = (uint32_t *)msg;
-
- for (count = 0U; count < msgq->msgSize; count++)
- {
- p[count] = q[count];
- }
-
- msgq->msgCount--;
- msgq->current++;
- msgq->current = msgq->current % msgq->count;
-
- USB_OSA_EXIT_CRITICAL();
-
- return kStatus_USB_OSA_Success;
-}
-
-usb_osa_status_t USB_OsaMsgqCheck(usb_osa_msgq_handle handle, void *msg)
-{
- usb_osa_msgq_struct_t *msgq = (usb_osa_msgq_struct_t *)handle;
- uint32_t msgCount;
- USB_OSA_SR_ALLOC();
-
- if (!handle)
- {
- return kStatus_USB_OSA_Error;
- }
-
- USB_OSA_ENTER_CRITICAL();
- msgCount = msgq->msgCount;
- USB_OSA_EXIT_CRITICAL();
-
- if (msgCount)
- {
- if (kStatus_USB_OSA_Success == USB_OsaMsgqRecv(msgq, msg, 0U))
- {
- return kStatus_USB_OSA_Success;
- }
- }
-
- return kStatus_USB_OSA_Error;
-}
projects / gps-watch.git / commitdiff